Clustering of methamphetamine users based on personality characteristics and self-efficacy in the west of Iran

With the substantial increase in the use of stimulants, especially methamphetamine, in recent years, the present study aimed to cluster methamphetamine users based on personality traits and self-efficacy, and compare their mental health, sleep quality, and the risk of relapse in the identified clusters. This cross-sectional study was conducted through convenience sampling on 501 methamphetamine users in addiction treatment centers in Kermanshah, western Iran. The data were collected using the Schwarzer General Self-Efficacy Scale, Zuckerman–Kuhlman Personality Questionnaire, Goldberg and Hiller General Health Questionnaire (GHQ), Zuckerman–Kuhlman Personality Questionnaire, and Stimulant Relapse Risk Scale (SRRS). A total of 501 methamphetamine users were distinguished into three clusters with frequencies of 111 (22.2%), 298 (59.5%), and 92 (18.4%) members through hierarchical cluster analysis. The participants in the first cluster were characterized by low self-efficacy, high neuroticism, sensation seeking, and aggressiveness, along with low extroversion and activity, low positive health, high negative health, low sleep quality, and high risk of drug relapse. The participants in the second cluster reported moderate levels of self-efficacy, neuroticism, sensation seeking, activity, and aggressiveness, high extroversion, and moderate levels of mental health, sleep quality, and the risk of relapse. Moreover, the participants in the third cluster reported the highest level of self-efficacy, the lowest level of neuroticism, sensation seeking, and aggressiveness, moderate extroversion and high activity, low relapse risk, high sleep quality, as well as high positive and low negative health symptoms. The third cluster was significantly different from the other two clusters in terms of the mentioned factors. The findings of this study suggest that low self-efficacy and the presence of neuroticism, sensation seeking, and high aggressiveness contribute to reduced mental health and sleep quality, as well as an increased risk of relapse in methamphetamine users.


Procedures and participants
The present study was a cross-sectional one.The study population included all methamphetamine users who visited the addiction treatment clinic of Farabi Hospital and the addiction treatment clinics (Kermanshah University of Medical Sciences, Kermanshah, Iran) and had been diagnosed with substance use disorder based on structured interviews (DSM-5) by a psychiatrist.The study's enrollment criteria were using methamphetamine for at least 6 months, reading and writing literacy, and age over 18 years.The exclusion criteria were severe psychological problems (psychological records and mental disorders diagnosed by a psychologist and with the help of mental assessments), serious cognitive problems according to the psychiatrist's diagnosis, ad any serious illness determined according to the doctor's opinion and the patient's medical records.The final sample size was estimated as 501 persons selected using convenience sampling from the study population who met the inclusion criteria during the study's timeframe.When determining the sample size, to ensure an adequate level of test power, a minimum of 20 samples per variable is considered sufficient 36 .Given that 22 sub-categories and overall scores are accounted for in this study, the minimum sample size required is 440.This study included 501 participants.Furthermore, hierarchical cluster analysis is deemed appropriate for datasets with fewer than 1000 cases, which applies to our study as well.
After obtaining permission from the Kermanshah University of Medical Sciences and making the necessary arrangements with the relevant authorities, the researchers visited the addiction treatment clinics and the applicants.They provided some information about the objectives of the study and obtained written and informed consent from the applicants.The eligible volunteers were evaluated through interviews by an experienced psychologist collaborating on the project.All participants were evaluated by completing the demographic checklist and other questionnaires regarding demographic information, individual and family self-report records, substance use records, and the data related to personality traits, self-efficacy, mental health, sleep quality, and risk of relapse.Data collection was done for almost 12 months.Questionnaires were completed from June, 2021-June 2022.
It should be noted that these data were collected through interviews with the patients by an experienced psychologist.The people with incomplete data for any reason were excluded from the study.Besides, all participants attended the study with full awareness of the details of the research project and its execution procedure.The participants' data were collected anonymously, and the researcher ensured the participants that their data would remain with her confidentially.The questionnaires were administered at separate intervals to prevent the participants' fatigue and non-cooperation.The interviews were conducted, and the questionnaires were completed after establishing rapport with the participants and considering their physical and mental conditions.

Measures
Schwarzer general self-efficacy scale The General Self-Efficacy scale has 10 items answered on a four-point Likert scale ranging from 1 to 4. In Schwarzer and Jerusalem's study, Cronbach's alpha coefficient for the whole scale ranged from 0.76 to 0.90, and the concurrent validity coefficient estimated for the scale was significantly correlated with emotions, optimism, and job satisfaction 37 .In Iran, in the research of Rabbani Bawjdan et al. 38 the reliability of this scale using Cronbach's alpha method with 354 samples is 0.82 Obtained.

Zuckerman-Kuhlman personality questionnaire
The Zuckerman-Kuhlman personality questionnaire is a self-report questionnaire used to measure 5 personality traits.Each item marked true is scored 1, and each false item is scored 0 39 .This study used the 41-item Persian version with established validity and reliability in Iran.The items cover neuroticism (10 items), sensation seeking (8 items), activity (8 items), extroversion (6 items), and aggressiveness (9 items) 40 .

General health questionnaire (GHQ)
The questionnaire was developed in 1972 by Goldberg and Hiller (1979) to identify mental disorders in different centers and environments.Its items examine the mental state in the last month and measure symptoms such as abnormal thoughts and feelings and aspects of observable behavior.Sánchez-López and Dresch 41 examined the reliability and validity of the questionnaire.This study analyzed the internal consistency and external validity of the 12-item mental health questionnaire in the Spanish general population, including a stratified sample of 1001 individuals aged 25 to 65.In this study, Cronbach's alpha for the questionnaire was estimated as 0.76.Within the Iranian context, the research undertaken by Ebadi et al., revealed that the internal consistency of the employed questionnaire, as measured by Cronbach's alpha, was found to be 0.87 42 .

The Pittsburgh sleep quality index (PSQI)
This self-report instrument was developed by Buysse (1989).It contains 18 items with a total score ranging from 0 to 21, with higher scores indicating lower sleep quality.Scores higher than 5 confirm poor sleep quality.In Iran, the Cronbach's alpha coefficient for the PSQI was estimated as equal to 0.83, confirming the reliability of the instrument.In the current study, Cronbach's alpha coefficient for the instrument was estimated as 0.91 43 .

Stimulant relapse risk scale (SRRS)
The scale assesses the risk of substance use disorder (SUD) relapse.This scale contains 30 items that measure 5 subscales, including anxiety and intention to use drugs (AI); emotionality problem (EP); compulsivity for drugs (CD); positive expectancies and lack of control over drugs (PL); and lack of negative expectancy for drugs (NE).The SRRS uses five items to assess insight into mental condition: awareness of illness (AI).These items are stated as follows: "The feeling I used to have while using the drug sometimes comes back" (AI); "I feel a constant need to put something in my mouth" (EP); "I would do almost anything to use the drug" (CD); "I would use the drug if I were alone" (PL); and "I would not be able to control myself if I use the drug" (NE).Higher average scores on the whole scale and subscale indicate a higher risk of relapse risk.In this study, only the total score was used.All items are related to a drug-related situation in the past 1 week.With 5 supplementary items measuring the respondent's intensity of awareness of their illness, this scale contains 35 items.The items are assessed on a three-step rating scale, with higher scores indicating a greater risk of using the drug of dependence.Cronbach's α coefficient for the 35-item SRRS in this study was 0.883, confirming its internal consistency 44 .
In the research conducted by Yamini and Khorsandi Shamir 45 in Iran, the construct validity of the questionnaire, encompassing both convergent and divergent aspects, was found to be at a commendable level.Furthermore, the Cronbach's alpha coefficients, a measure of internal consistency, were calculated to be 0.94 for the instrument as a whole, and ranged 0.95 for its constituent sub-scales.

Statistical analysis
The recorded data were entered into SPSS-24 software by a statistician and analyzed using relevant statistical techniques.The personality traits, self-efficacy, mental health, sleep quality, and risk of relapse in methamphetamine users were assessed with the help of cluster analysis.The k-nearest neighbor's algorithm and the squared Euclidean distance were used in the hierarchical cluster analysis.The final number of clusters was specified using cluster analysis and drawing a dendrogram and cumulative values.Descriptive statistics were used to evaluate clusters to determine the distribution of demographic factors in frequency, percentage, minimum, maximum, mean, and standard deviation.The chi-square test was used to check the relationship between the distribution of classified factors in the studied clusters.If necessary, the Fisher exact test was used to adjust it.The average values for the quantitative factors in the extracted clusters were compared through a one-way analysis of variance (ANOVA).Ultimately, the data from 501 participants were entered into the software and analyzed using the relevant statistical methods.The significance level was set at 0.05.

Ethical considerations
This study was conducted with full compliance with ethical protocols.To this end, the objectives of the study were explained to the participants in clear and simple language.Participation in the study was completely voluntary and without any compulsion, and the participants were assured that the results of the analysis and tests would be kept completely confidential.Moreover, the participants' identity information was not recorded, and only the codes reported by the participants were used to identify the data.The participants had the right to withdraw at any study stage, including data collection.Written informed consent was obtained from all participants who signed a consent form.This study was registered at Kermanshah University of Medical Sciences in Iran and was approved by the university's ethics committee (IR.KUMS.REC.1399.1179.).

Results
The data for 501 methamphetamine users were analyzed using hierarchical cluster analysis.The k-nearest neighbors algorithm was used in the hierarchical cluster analysis to determine the number of clusters based on the self-efficacy and personality traits of the participants.This algorithm calculates the distance between two clusters based on the distance between their farthest points.Besides, the squared Euclidean distance was considered a measure of cluster similarity.The data analysis, the dendrogram, and the accumulation coefficients and reducing their changes along with the increase in the number of clusters showed that participants were placed into three clusters according to the level of self-efficacy and personality traits.Accordingly, different self-efficacy and personality trait averages created three clusters in the studied sample.In the end, the participants were distinguished into three clusters with frequencies of 111 (22.2%), 298 (59.5%), and 92 persons (18.4%), respectively (Table 1).
An analysis of the demographic characteristics, personal-family histories, and substance use data of the three clusters indicated that the participants in the clusters were significantly different in terms of their current age and gender distribution (all Ps < 0.05).Although none of the participants in the third cluster were over 55 years old, the number of participants age group in the first cluster (7 persons; 6.3%) was three times greater than that of the participants in the second cluster (5 persons 1.7%).Moreover, the participants aged 15-35 accounted for more than half of the participants in the first cluster (58 persons; 52.3%) and the third cluster (48 persons; 52.7%).However, the participants aged 36-55 in the second cluster accounted for more than half of the participants (151 persons; 50.7%).Thus, the second cluster with a higher current age distribution than the average age distribution www.nature.com/scientificreports/ in the first cluster and low age distribution in the third cluster showed that cluster memberships are significantly different based on the current age of the participants.Moreover, the number of women in the third cluster (17 persons; 18.5%) was reported to be more than five times of the women in the second cluster (10 persons; 3.4%) and about one and a half times of the women in the first cluster (14 persons; 12.6%), showing significant gender differences and distinctions in terms of the number of male participants in the first and third clusters and the female participants in the second cluster.The clusters defined in terms of the history of legal problems in the family as well as the history of physical and psychological abuse in childhood, showed statistically significant differences.Thus, the history of family legal problems was reported in the first cluster (23 cases; 20.9%) more than one and a half times the second cluster (38 cases; 12.6%) and more than twice the third cluster (8 cases; 8.7%).Moreover, in the first cluster, the number of mental abuse (15 cases; 13.5%) and physical abuse cases (29 cases; 26.1%) in childhood was significantly higher compared to the second and third clusters.An analysis of the distribution of a history of substance use cases among the three clusters showed that the clusters had statistically significant differences in substance use duration, family history of substance use, and the first reason for substance use (all Ps < 0.05).The period of substance use was more than 72 months in the first cluster with (79 cases; 70.8%), nearly one and a half times the second cluster (150 cases; 50.5%), and more than one and a half times the third cluster with 41 cases (44.0%).The analysis of the reasons for the first substance use also showed that most participants in the first cluster reported peer persuasion as the first reason for their substance use (115 persons; 38.6%) and seeking pleasure (34 persons; 30.6%).At the same time, most participants in the second and third clusters reported getting pleasure and persuasion by friends as the first reason for their substance use.Family problems reported as the first reason for substance use in the third cluster (14 persons; 15.4%) were significantly higher than the first cluster (5 cases; 4.5%) and the second cluster (13 cases; 4.4%) (Table 2).
A comparison of the participants' average current age, the age of the first substance use, and the duration of substance use in the three clusters revealed that the mentioned variables showed statistically significant differences among the three groups (P < 0.05).Accordingly, the average age of the first substance use for the participants in the third cluster (25.48) was significantly higher than that of the first cluster (22.74) and the second cluster (23.49).Besides, the average duration of substance use for the participants in the third cluster (109.17) was significantly lower compared to the first cluster (146.2) and the second cluster (121.4)(Table 3).
Further analysis indicated that the average self-efficacy score for the participants in the third cluster (32.41) was significantly higher than the score of the participants in the second cluster (23.86) and the first cluster (15.76).Moreover, a comparison of the average scores of personality traits among the three clusters indicated that the average scores for neuroticism, sensation seeking, extroversion, and aggressiveness showed statistically significant differences among the clusters (P < 0.05).Hence, the average scores for neuroticism, excitement, and aggressiveness were reported to be higher in the first cluster compared to the second cluster, and the corresponding values were higher in the second cluster than in the third cluster.However, the mean score for extraversion was higher in the second cluster compared to the first and third clusters, and the corresponding value was higher in the third cluster compared to the second cluster.This means that higher levels of extraversion are associated with higher levels of self-efficacy.The data analysis also indicated self-efficacy, and each of the subscales of neuroticism, sensation seeking, extroversion, and aggressiveness played a statistically significant role in differentiating the determined clusters and assigning methamphetamine users to these clusters (all Ps < 0.05).These results also showed that participants in the first cluster were characterized by high neuroticism, sensation seeking, aggressiveness, low extroversion, activity, and self-efficacy.The participants in the second cluster reported moderate self-efficacy and neuroticism, sensation seeking, moderate activity and aggressiveness, and high extroversion.Furthermore, the participants in the third cluster were distinguished from the members of the other two clusters with the highest level of self-efficacy, low levels of neuroticism, sensation seeking, and aggressiveness, moderate extroversion, and high activity (Table 4).
Furthermore, a comparison of the average scores of positive health and negative health among the three clusters showed that the two components of health have a statistically significant effect in distinguishing the clusters from each other.Thus, the participants in the second and third clusters had higher levels of positive signs of mental health and lower levels of negative health.In addition, the average scores for positive health symptoms in each cluster showed statistically significant differences compared to the first cluster.The average negative health score also showed a statistically significant difference between the first and second clusters (Ps < 0.05).An analysis of the average scores for sleep quality and its sub-scales also showed that sleep efficiency and sleep disorders, as well as the overall score of sleep quality, played a significant role in differentiating the clusters from each other (Ps < 0.05).Thus, mean negative health, overall sleep quality, sleep disorders, and sleep efficiency were significantly higher in the first cluster compared to the second cluster, and the corresponding values in the second cluster were greater compared to the third cluster.
Furthermore, positive health was significantly higher in the third cluster compared to the second and first clusters.Further examination of the differences between the clusters showed that the risk of relapse of stimulant use and all its sub-scales also had a statistically significant effect on the formation and differentiation of the three clusters (Ps < 0.05).Following these results, the higher levels of self-efficacy in the second and third clusters were associated with lower levels of relapse risk symptoms in these two clusters compared to the first cluster.
On the other hand, the average scores of relapse risk and its sub-subscales and the average overall scores of sleep quality, sleep efficiency, and sleep disorders were significantly higher in the first cluster compared to the second and third clusters (Ps < 0.05).These findings indicated that the participants in the first cluster reported low self-efficacy, high relapse risk, low positive health symptoms, high negative health symptoms, and low sleep quality.Thus they were differentiated from the participants in the other two clusters.The second cluster was distinguished from the other clusters with a moderate level of self-efficacy, mental health, sleep quality, and the www.nature.com/scientificreports/risk of relapse.On the other hand, the third cluster was characterized by high self-efficacy, low risk of relapse, and low sleep quality score, as well as high positive health and low negative health signs (Table 5).

Discussion
The present study compared self-efficacy and personality traits based on cluster analysis of mental health, sleep quality, and relapse among methamphetamine users.This study used self-efficacy and personality traits to cluster methamphetamine users.The results of the data analysis showed that the level of self-efficacy was lower in the first cluster than in the second and third clusters.Accordingly, negative mental health was higher, and positive mental health was lower in the same cluster.Furthermore, the substance users in this cluster had a lower quality of sleep and a higher relapse.
Our findings indicated that self-efficacy is associated with both negative and positive mental health outcomes.Previous research by Yıldırım and Güler 46 and Schalk and Reynaert Gloudemans 47 also supported the connection between self-efficacy and mental health.This suggests that self-efficacy plays a role in enhancing individuals' health by promoting adaptive coping mechanisms and shielding them from psychological distress 48 .
The present study's data revealed that methamphetamine users in the first cluster, characterized by low selfefficacy, reported lower sleep quality, which is consistent with previous studies (e.g., Schlarb et   [49][50][51][52][53][54] .This finding suggests that lifestyle, which can be influenced by an individual's self-efficacy, plays a role in sleep quality.Self-efficacy, as a psychological Table 2.The descriptive statistics for the participants' demographic characteristics and their self-report conditions.*Significant at P < 0.05.**Significant at P < 0.01..Methamphetamine users in the first of our clusters, characterized by lower self-efficacy, exhibited the highest relapse rate compared to the second and third clusters.This finding aligns with Zhang et al., who found that individuals with low self-efficacy had more frequent relapses and tended to perceive relapse as a personal failure 56 .Schuck et al. also demonstrated the effectiveness of increasing self-efficacy in preventing smoking relapse during stressful and tempting situations 57 .These findings support the notion that self-efficacy, as a personality trait, can influence substance use relapse.Self-efficacy, rooted in purposeful thinking, is crucial in individuals' behavior in high-risk situations.Those with high self-efficacy are better equipped to resist substance temptation, leading to a lower likelihood of relapse.For instance, participants in the third cluster, characterized by higher self-efficacy, exhibited lower relapse rates compared to those in the other two clusters 24,58,59 .
In addition to self-efficacy, personality traits were used in the present study to cluster methamphetamine users.The data showed that neuroticism was high in the cluster with low mental health and sleep quality and a high drug relapse rate.However, the participants with low neuroticism in the third cluster reported different results, indicating that mental health and sleep quality were high and relapse rates were low. Lee et al. 60 confirmed the relationship between neuroticism and mental health.Shokrkon and Nicoladis 61 also found that people who have a high neuroticism score usually experience more negative emotions such as neuroticism, anger, irritability, and fear and show a stronger reaction to stressors, making them vulnerable to the adverse consequences of stressful experiences and thus feeling more anxious and insecure 62 .
The findings of the present study also demonstrated that neuroticism is associated with sleep quality in methamphetamine users.For instance, sleep quality was lower in the participants in the first cluster with higher neuroticism compared to the second and third clusters.The impact of neuroticism on the quality of sleep and frequent awakenings during sleep has been confirmed by other studies in the literature [63][64][65] .People usually experience stress and mental suffering when faced with changes, and the changes made in their life may lead to poor sleep quality.On the other hand, considering that stress and neuroticism are formed through physiologicalpsychological arousal, such changes certainly affect the quality of sleep 66,67 .
In addition to sleep quality, neuroticism was also associated with the relapse rate in methamphetamine users.As a case in point, the participants in the first cluster, with higher neuroticism, reported a higher relapse score rate.Schellekens et al. 68 also found that the relapse rate is related to neuroticism.In line with this finding, Fisher et al. 69 found that people with high neuroticism have a higher relapse rate.Hojjat et al. 70 also showed that high neuroticism is associated with more methamphetamine use.These people show a weaker degree of adaptability with others and psychological distress, and these characteristics in people with neurotic traits probably make them more prone to relapse 71 .
The present study showed that, compared to the other two clusters, the sensation-seeking score was high in methamphetamine users in the first cluster.They reported lower positive mental health symptoms, higher negative health symptoms, lower sleep quality, and a higher relapse rate.Kalantari and Zolfaghari Zaferani also  www.nature.com/scientificreports/found a correlation between sensation seeking and general health.Accordingly, we can argue that excitementseeking people do various things to get the optimal arousal level, which can adversely affect their mental health 72 .
The data in this study indicated that in addition to mental health, sensation seeking was also associated with the quality of sleep in methamphetamine users, indicating that the higher the sensation seeking, the lower the sleep quality and vice versa, as reported in previous studies [73][74][75] .This is to argue that high sensation seeking can increase emotional response through cognitive hyperarousal and facilitate insomnia.
Sensation seeking was related to substance abuse relapse in the present study.Accordingly, in the third cluster, compared to the first cluster in which sensation seeking was low, the relapse rate was lower compared to the first and second clusters.Hampson, Andrews, and Barkley 76 also found that sensation-seeking, bonding, and social perceptions are predictors of substance abuse.In another study, Martins et al. 77 studied two clusters of people with severe substance dependence and normal people and concluded that sensation seeking and impulsivity have a positive relationship with substance use.This finding implies that negative emotions and the inability to manage them properly are important triggers for the resumption of substance use, and negative emotions make people vulnerable to addiction and its recurrence 78 .
Another variable that was addressed in cluster analysis was aggressiveness.The participants in the first cluster reported a higher level of aggressiveness compared to the second and third clusters.Besides, mental health and sleep quality were reported to be lower in the same cluster, and the relapse rate was higher.This finding suggests that aggressiveness is one of the important and inherent human emotions and is a common reaction to failure and misbehavior.This emotion has unquestionable importance in terms of evolution.Still, its indiscriminate and excessive use causes some health and interpersonal problems for people because quick judgment, faulty information processing, and incorrect predictions can pave the way for aggressive behaviors, leading to negative mental health in people using methamphetamine 79 .
The data in this study also indicated that aggressiveness was higher in people with sleep problems in the first cluster, as reported by Afshar and Banisi 66 .Accordingly, we can argue that aggressiveness is one of the complex human emotions and a common reaction to failure and misbehavior.Aggressiveness is a type of negative emotion.Expressing anger and aggressiveness during the day can cause sleep problems and lead to feeling tired and sleepy during the day.In general, more aggressive people fall asleep later and have poor sleep quality.Nevertheless, it should also be noted that sleep problems have a two-way relationship with aggressiveness.For example, Kayser et al. 80 reported that sleep disorders negatively affect many functions and are related to aggressiveness and violence, as confirmed by Kamphuis et al. 80 .
The present study found that methamphetamine users in the first cluster with a high level of aggressiveness also reported a higher relapse rate.McCormick and Smith 81 found that subjects who scored higher on aggressiveness and aggressiveness measures reported more situations that caused them to use substances and had less confidence that they would withstand such situations.This was especially true for situations involving unpleasant moods, rejection, and conflict with family and friends.Likewise, Plüddemann et al. 82 found that individuals who used methamphetamine engaged significantly more frequently in aggressive behaviors.These findings imply that problems caused by impulsivity, such as weak inhibition, decision-making, and planning, can be major obstacles in treating people with substance use disorders, especially in initiating, following up, and continuing treatment.In clinical samples, impulsivity is associated with factors that play a role in relapse, such as temptation and severity of substance use, and impulsivity is a potential mediator in treatment response and effectiveness.Impulsive behaviors can lead to the formation of a strong desire to use in substance users, and as a result, undermine their inability to resist it and contribute to returning to substance use again 83 .
Another construct of personality traits that were addressed in this study is extroversion.The findings indicated that extroversion was low in the participants with lower levels of mental health and sleep quality in the first cluster.This finding was consistent with the results reported by Umegaki and Higuchi 84 and in contrast with the observations made by Klinger-König et al. 85 .They reported that low extroversion could predict high mental health.Accordingly, it can be argued that extroversion is partly related to individual differences.That is, extroverted people show relatively high levels of happiness, enthusiasm, energy, interest, and tirelessness.Studies have also demonstrated that extroverted people are highly motivated to interact with others and spend more time in the socialization process, and use of social support 86 .Such people also benefit from social support, socializing, and warm and intimate relationships with others.Hence, extroverted people are less passive and self-blaming and are less likely to retreat to isolation, and they experience higher mental health.In contrast, low extroversion is likely to have a positive effect on mental health 87 .
In a study on 22,000 adults aged 30 to 107 years, Stephan et al. 88 found that higher scores in extraversion were associated with better sleep quality.This finding was also confirmed by Hintsanen et al. 89 and Gray and Watson 90 .Extroverted people have better mental and physical health and are less reactive to stressful factors, which may lead to better sleep quality 91 .Since extraversion is associated with less reactivity to stress, lower risk of lung disease, better respiratory function, and a more physically active lifestyle, extrovert people are less likely to suffer from sleep problems 88 .
Accordingly, the findings of the present study confirmed a lower relapse rate in people with high extroversion.Other studies have also reported that high extraversion is the most important predictor for starting and increasing the consumption of drugs such as tobacco, alcohol, and cigarettes 48,92 .This is to argue that extroversion is considered a basic personality trait and is characterized by energy, dominance, positive emotions, and sociability, and it is possible that when this personality trait is lower in people, the rate of relapse will increase 93 .

Limitation
The present study was conducted with some limitations.For instance, the participants were methamphetamine users in Kermanshah and were selected through convenience sampling.Thus, the findings might have less generalizability to other populations.A quantitative method was used for data collection.Thus, future studies need to conduct semi-structured interviews to collect more data.Future researchers can also use the findings of the current study to develop educational and therapeutic protocols and to examine their effectiveness in clinical trials.

Conclusion
Following the insights from this study, it seems that evaluating self-efficacy and personality traits in methamphetamine users provides valuable information for clinical work, especially for substance abuse and its treatment.In line with the results of the present study, personality traits, and self-efficacy could predict mental health, sleep quality, and relapse, and there was a significant difference in terms of mental health, relapse, and sleep quality in the three clusters in this study.
In other words, these variables developed three distinct clusters, and the methamphetamine users in the first cluster with higher levels of neuroticism, sensation seeking, and aggressiveness, and low levels of extroversion, activity, and self-efficacy reported a low level of mental health and sleep quality but a higher relapse rate compared to the methamphetamine users in the second and third cluster.
Given the relatively high prevalence of methamphetamine use and its increasing trend in the community, the data in this study indicated that self-efficacy and personality traits could cluster methamphetamine users.This finding can have some implications for preventing and treating methamphetamine use.Accordingly, people with low self-efficacy or high neuroticism can be identified in educational centers such as schools and universities, and these variables can be adjusted with the help of treatment protocols because, in many cases, prevention works better than treatment.Furthermore, the mentioned variables should be seriously considered in the treatment centers, and effective solutions can be presented to the centers in charge of serving these people.As the findings indicated, relapse is associated with personality traits and self-efficacy; thus, reducing relapse is one of the main goals in treating methamphetamine users.However, in medical centers in Iran, more attention is paid to detoxification and drug treatments at the expense of underlying psychological variables.Accordingly, medical centers should address psychological factors as soon as clients are admitted to come up with more stable treatment outcomes.

Table 1 .
Cluster analysis with the k-nearest neighbors algorithm.

Table 3 .
Comparing the average current age, the first substance use, and duration of substance use in the three clusters.

Table 5 .
Comparing self-efficacy and personality traits in the three clusters.